CN111291435A - Color matching method - Google Patents

Abstract

The invention discloses a color matching method, which comprises the following steps: user input or selection of colors, and/or, desired spatial perception as a sample for a collocation design; the smart device displays the color and spatial perception of the sample; the intelligent equipment calculates collocation colors according to the color parameters of the samples; displaying the obtained matching colors in corresponding areas; forming a basic feeling according to the collocation of the collocation colors and the samples, and providing a proposal for the user to collocate colors independently; the user can adjust the proposed scheme by operating the smart device, and the color parameters include lightness L, saturation C, hue H, temperature T, and light reflectivity Lrv. According to the invention, the color code is generated by taking the temperature and the light reflectivity as the color parameters, so that the color matching accuracy is improved, the matched color is in line with the expectation of a user, and the color matching selection is carried out through intelligent equipment, so that the color matching efficiency is improved.

Description

Color matching method

Technical Field

The invention relates to the technical field of color matching, in particular to a color matching method.

Background

Color is an important way for human communication, and the rich connotation of the color organically combines the information of emotion, culture, psychology and the like of people. People need rich colors to set up their lives, which requires color matching. The traditional color parameters include 3 elements of lightness, saturation and hue, but cannot be used as the directions of collocation. The subjective concept of color is different for each person, and it is more different to express a color feeling, and the color cards and color books commonly used at present can not explain the influence of color on the space feeling although they show thousands of colors. If the color matching is not reasonable, even a lot of rich colors still cannot embody the aesthetic feeling of the colors, or the matching result is not harmonious with the environment. In the past, people often match colors according to subjective feelings and visual impressions. This is often inefficient and ineffective.

For example, chinese patent "a color wheel for indoor color matching" (patent No. 200510101619.2) and "a color card for matching colors and a method of using the same" (patent No. 200510101616.9) are patent applications relating to an auxiliary tool for color matching, and 2 color matching tools and methods of using the same are described. Although the 2 tools can enable users to get rid of subjective randomness during color matching as much as possible, rules can be made and can be followed, and color matching is more effective and quicker by following a certain rule, a complex repeated experiment process is still needed, the matching effect is not ideal, the process is complex, and the working efficiency is low.

Disclosure of Invention

The invention aims to solve the problems of unsatisfactory matching effect of color and space feeling, complex process and low working efficiency in the prior art.

In order to solve the above technical problem, an embodiment of the present invention discloses a color matching method, which includes the following steps:

user input or selection of colors, and/or, desired spatial perception as a sample to be collocated;

calculating color parameters of the sample, and selecting matched colors matched with the sample according to the color parameters so as to meet the color matching feeling expected by a user;

displaying the calculated collocation colors in corresponding areas;

forming a basic feeling according to the collocation of the collocation colors and the samples, and providing a color collocation suggestion scheme for a user;

the user can make adjustments to the suggested solution, wherein,

the color parameters include lightness L, saturation C, hue H, temperature T, and light reflectance Lrv.

By adopting the technical scheme, the temperature and the light reflectivity are used as color parameters, so that the color of the sample can generate a color code, the accuracy of color matching is improved, and the matched color can better meet the expectation of a user. Meanwhile, color matching selection is carried out through intelligent equipment, complex selection and comparison on a color card or a color wheel are not needed, and the efficiency of color matching is improved.

Alternatively, each item in the color parameter corresponds to a numerical value of a corresponding number of bits, and a color code can be generated.

Optionally, the selection range of the color parameter is: the lightness L is selected from 00-99, the saturation C is selected from 00-99, the hue H is selected from 000-360, the temperature T is selected from any positive integer, and the light reflectivity Lrv is selected from 00-99%.

Alternatively, the temperature T refers to a combination of the hue H and the color temperature for providing a more one-item reference to the user.

Alternatively, the basic feeling includes four modes, which are a C mode, an a mode, an R mode, and an E mode, respectively, wherein the C mode represents a feeling that is comfortable and agreeable; the feeling that mode A represents is rights, authoritative; the R mode represents a feeling of nobility, nobility; the sensation represented by the E-mode is vitality, passion.

Optionally, the range of lightness L corresponding to the C mode is 56-99, and the range of saturation C is 00-24; the range of lightness L corresponding to the mode A is 00-55, and the range of saturation C is 00-24; the range of lightness L corresponding to the R mode is 00-55, and the range of saturation C is 25-99; the lightness L corresponding to the E mode ranges from 56 to 99, and the saturation C ranges from 25 to 99.

Optionally, in the process of selecting the collocation color, a combination of one or more items in the color parameters can be selected as a calculation basis, or a combination of one or more items in the color parameters and a color harmony principle can be selected as a calculation basis.

Drawings

FIG. 1 is a flow chart of a color matching method according to an embodiment of the present invention;

FIG. 2 is a schematic interface diagram of a display module in a color matching method according to an embodiment of the invention;

FIG. 3 is a schematic structural diagram of an intelligent device in a color matching method according to an embodiment of the present invention;

FIG. 4 is a chart comparing light reflectivity in a color matching method according to an embodiment of the invention;

fig. 5 is a schematic structural diagram of a spatial color wheel in a color matching method according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure. While the invention will be described in conjunction with the preferred embodiments, it is not intended that features of the invention be limited to these embodiments. On the contrary, the invention is described in connection with the embodiments for the purpose of covering alternatives or modifications that may be extended based on the claims of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be practiced without these particulars. Moreover, some of the specific details have been left out of the description in order to avoid obscuring or obscuring the focus of the present invention. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

It should be noted that in this specification, like reference numerals and letters refer to like items in the following drawings, and thus, once an item is defined in one drawing, it need not be further defined and explained in subsequent drawings.

In the description of the present embodiment, it should be noted that the terms "upper", "lower", "left", "right", "inner", "bottom", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are usually placed in when used, and are only used for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or the element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present embodiment, it should be further noted that, unless explicitly stated or limited otherwise, the terms "disposed," "connected," and "connected" are to be interpreted broadly, e.g., as a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present embodiment can be understood in specific cases by those of ordinary skill in the art.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a flowchart of a color matching method according to an embodiment of the present invention, fig. 2 is a schematic interface diagram of a display module in the color matching method according to the embodiment of the present invention, fig. 3 is a schematic structural diagram of an intelligent device in the color matching method according to the embodiment of the present invention, fig. 4 is a comparison diagram of light reflectivity in the color matching method according to the embodiment of the present invention, fig. 5 is a schematic structural diagram of a spatial color wheel in the color matching method according to the embodiment of the present invention, as shown in fig. 1 to 5, an embodiment of the present invention provides a color matching method, which includes the following steps: user input or selection of colors, and/or, desired spatial perception as a sample to be collocated; calculating color parameters of the sample, and selecting matched colors matched with the sample according to the color parameters so as to meet the color matching feeling expected by a user; displaying the calculated collocation colors in corresponding areas; forming a basic feeling according to the collocation of the collocation colors and the samples, and providing a color collocation suggestion scheme for a user; the user can make adjustments to the suggested solution, where the color parameters include lightness L, saturation C, hue H, temperature T, and light reflectance Lrv

That is to say, the color matching method mainly comprises five steps, specifically, the following steps are included:

step one S1: user input or selection of colors, and/or, desired spatial perception as a sample to be collocated;

step two S2: calculating color parameters of the sample, and selecting matched colors matched with the sample according to the color parameters so as to meet the color matching feeling expected by a user;

step three S3: displaying the calculated collocation colors in corresponding areas;

step four S4: forming a basic feeling according to the collocation of the collocation colors and the samples, and providing a color collocation suggestion scheme for a user;

step five S5: the user can make adjustments to the suggested solution.

In step S1, the user can input a favorite color or a desired spatial sensation as a sample for designing a collocation design through the input module 12 of the smart device 1 according to his or her needs, that is, the user may input a color or a desired spatial sensation, or simultaneously input a combination of a color and a desired spatial sensation as a sample for designing a collocation design. In addition, different colors or different spatial senses may be displayed on the display module 10 of the smart device 1 for the user to select, and the user may input through a selection form.

Specifically, as shown in fig. 1 to 3, in this embodiment, different color blocks 101 are displayed on the display module 10 of the intelligent device 1 for a user, the color selection area 100 is composed of the different color blocks 101, a spatial sensation selection area 102 is disposed on one side of the color selection area 100, different sensation mode buttons 103 are disposed in the spatial sensation selection area 102, the user can select by clicking the color block 101 of the color selection area 100, or select by clicking the sensation mode button 103 of the spatial sensation selection area 102, or select by simultaneously clicking the color block 101 of the color selection area 100 and the sensation mode button 103 of the spatial sensation selection area 102 in combination, so as to provide various input modes for the user, and facilitate the user to use and operate.

It should be noted that the input mode of the intelligent device is not limited, and the input mode can be selected according to actual needs, for example, the input mode can be input by clicking and operating a touch screen, or can be input by a keyboard, a mouse, a color sampler or other devices, or can be input by an intelligent voice device, as long as the color or space feeling required by the user can be accurately and reliably input into the intelligent device.

In this embodiment, the smart device 1 may be a smart phone, a computer (computer), a smart watch, a color scanner, or the like, and in other embodiments, the smart device may also be other smart devices having data processing and input/output functions, such as a smart camera.

In step S1, the display module 10 of the smart device 1 can display the color or spatial sensation input and selected by the user as a sample. In this embodiment, the display module 10 can show a spatial environment in which the colors of the sample are collocated as the dominant colors to the user in an example manner, so as to embody a spatial sense corresponding to the colors of the sample. At the same time, the display module 10 is also able to present to the user a randomly generated spatial environment of the smart device 1 based on the spatial perception of the sample, i.e. to present a spatial environment corresponding to the spatial perception of the sample. The display module 10 can also match the color of the sample as a dominant color and the spatial perception of the sample, and the matching result is displayed to the user in the form of an example.

It should be noted that the example shown to the user in the step one S1 is only for showing the result of selecting the sample to the user, and the result may be an image stored in advance in the processing module 11 of the smart device 1, or a dynamic image, or a video, and the processing module 11 of the smart device 1 does not calculate and process the sample in the step one S1. The user can judge whether the selected color or space feeling meets the actual desire of the user according to the result displayed by the display module 10, and can replace or reselect the sample according to the different desires. Therefore, more selection spaces can be provided for the user, and the user can conveniently determine the real expectation of the user.

After determining that the sample result displayed by the display module 10 meets the actual expectation of the user, the user can click the "OK" button to make the intelligent device 1 perform the operation of step two S2, that is, the intelligent device 1 calculates the color parameter of the sample, and selects the matching color matched with the sample according to the color parameter, so as to meet the color matching feeling expected by the user.

In the prior art, color selection is mainly performed through three color parameters of lightness, saturation and hue, and the traditional color collocation manner cannot be used as a collocation direction. Because each person has different subjective concepts of color, it is more different to express a color feeling, and although the color cards and color books commonly used at present show thousands of colors, the influence of the colors on the space feeling cannot be explained, the matching selecting effect is not ideal, and the efficiency is low.

In the present embodiment, the color parameters include lightness L, saturation C, hue H, temperature T, and light reflectance Lrv. That is, the temperature T and the light reflectivity Lrv of the color are added into the traditional color parameters, so that the accuracy of color matching is improved, and the matched color can better meet the expectations of users.

In this embodiment, the processing module 11 of the smart device 1 is capable of recognizing five parameters in the color and processing the data lines of the five parameters as needed. Specifically, in this embodiment, the processing module 11 of the smart device 1 can correspond each item of the color parameter to a numerical value of a corresponding digit, and can generate the color code. The intelligent device 1 processes the color code generated according to the sample according to the harmony principle of color matching, and calculates the matching color capable of being combined and matched with the sample.

Fig. 4 is a comparison graph of light reflectivity in a color matching method according to an embodiment of the invention, and referring to fig. 4, as the light reflectivity Lrv increases, the brightness of the color also increases. Specifically, the light reflectivity Lrv refers to the total amount of visible light and usable light reflected by the surface of an object in all directions and wavelengths when a color is irradiated by a light source, and by measuring the light reflectivity of a color, it can be known how much light is reflected and how much light is absorbed by the color. Referring to fig. 4, the value of light reflectance is represented from 00% to 99%, and if 00% is completely black, 100% is completely white in a bright state, which is not desirable, and thus, preferably, the value of light reflectance is 00% -99%. That is, the light reflectivity of the colors in the same color tone is different, and the spatial perception is different, so that more matching options can be provided by adjusting the light reflectivity Lrv of the colors.

In the present invention, the processing module 11 can adjust the light reflectivity of various colors, and when a user selects a certain color as a sample, the processing module 11 can make a suitable selection according to the color tone and the light reflectivity Lrv of the sample, so that the selected matching color can be matched with the color of the sample in the light reflectivity Lrv. By selecting the appropriate light reflectivity Lrv, the brightness and spatial perception in the spatial environment can be increased, enabling the customer to have more selected scenes and a better spatial perception.

After step two S2 is completed, the display module 10 of the smart device 1 can display the calculated collocation color in the corresponding area, that is, the display module 10 can perform the operation of step three S3. The display module 10 may update the color in the corresponding area on the spatial environment displayed in step S1, or may convert the display interface to show the new spatial environment to the user.

For example, the spatial environment displayed in the first step S1 includes areas such as a background wall surface, other wall surfaces, a floor surface, and furniture, and the color in the sample is displayed on the background wall surface, and in the third step S3, the collocation color can be filled in the corresponding areas except the background wall surface through an automatic updating manner, that is, the collocation color is filled in the other wall surfaces, the floor surface, and the furniture, so that the collocation result and the spatial sensation produced by the intelligent device 1 according to the calculation result are displayed to the user.

Of course, in step three S3, the color of the sample and the collocation color may be filled in the corresponding region of the space environment by generating a new display interface, that is, the color of the sample and the collocation color are recombined to be collocated and filled in each corresponding region, so as to display the collocation result and the space feeling produced by the smart device 1 according to the calculation result to the user.

In step four S4, the display module 10 of the smart device 1 can display the collocation result and the spatial sensation produced according to the calculation result, i.e. form a basic sensation, and give a proposal for the user to collocate colors autonomously. The proposal can be displayed to the user in a form of matching pictures, can also inform the user in a form of characters, and can also be displayed and informed to the user in a form of combining the pictures and the characters. The display picture can be a static image, a dynamic picture (such as a 3D picture) or a video image, and the invention is not limited to this, and can be set according to actual needs as long as the proposal scheme can be accurately and reliably displayed to the user.

Referring to fig. 1, in the present embodiment, if the user is not satisfied with the recommended scheme in step four S4, the user may adjust the recommended scheme by operating the smart device 1, that is, perform the operation of step five S5. The intelligent device 1 performs new calculation (as shown by a dotted arrow in fig. 1) on the color parameters according to the result of the adjustment by the user, and updates the displayed picture according to the new calculation result, so that the suggested scheme can better meet the expectations of the user.

It should be noted that, the order of each step in the present invention can be properly adjusted and recombined according to the actual use condition of the user, and the present invention does not limit the order of the steps, as long as the user can quickly and efficiently select the color matching scheme meeting the user's desire by using the method provided by the present invention.

By adopting the technical scheme, the temperature and the light reflectivity are used as color parameters, so that the color of the sample can generate a color code, the accuracy of color matching is improved, and the matched color can better meet the expectation of a user. Simultaneously, carry out the collocation selection of color through smart machine, can simulate color collocation teacher's thinking and the selection of the color of collocating of work, need not carry out complicated selection and contrast on colour chip or colour wheel, promoted the efficiency of color collocation.

It should be noted that, the specific number of bits of the color code is not limited, and the color code can be set according to actual needs as long as the color parameters can be conveniently processed. Specifically, in this embodiment, each selection range in the color parameters is: the selection range of lightness L is 00-99, the selection range of saturation C is 00-99, the selection range of hue H is 000-360, the selection range of temperature T is any positive integer, and the selection range of light reflectivity Lrv is 00-99%.

That is, lightness L, saturation C, and light reflectance Lrv all correspond to two digits of value, namely 00-99; the hue H corresponds to a three-dimensional value, i.e., 000- & ltSUB & gt 360- & ltSUB & gt; the number of bits of the temperature T is not limited, and may correspond to any positive integer, specifically, as shown in table 1 below:

specifically, in this embodiment, the temperature T corresponds to four values 1 to 4, that is, the processing module 11 of the smart device 1 obtains a ten-digit password according to the lightness, saturation, hue, temperature, and light reflectivity of the color in the sample, that is, the color code is a ten-digit password.

Referring to fig. 5, with the ten-digit password, a color can be accurately located in the spatial color wheel, and then, the processing module 11 may select a combination of one or more of the color parameters as a calculation basis, or select a combination of one or more of the color parameters and a color harmony principle as a calculation basis, process the sample according to the selected calculation basis, and calculate a matching color capable of being combined and matched with the sample.

That is to say, the processing module 11 may perform calculation and processing in two selection forms during the process of selecting the matched color, one is a calculation basis that uses a single parameter or a combination of several parameters (such as brightness, saturation, temperature, etc.) in the color parameters as the selected matched color, and the other is a calculation basis that uses a combination of one or several parameters in the color parameters and a harmonious principle of color as the selected matched color.

It should be noted that the harmonious principle of color matching includes three aspects of similar color, contrast color and contrast color, and the traditional matching of hue H by the harmonious principle does not necessarily meet the expectations of users, nor is it necessarily good-looking. Therefore, in this embodiment, the processing module of the smart device performs calculation together with the temperature T according to the harmony principle of color matching, so as to perform good spatial matching, that is, the processing module performs matching operation on lightness, saturation, and hue according to the harmony principle, and performs calculation together with the temperature value of the color to obtain a corresponding matching result, so that the matching result can better meet the expectations of the user.

Specifically, the similar colors refer to that all colors in the range from +18 to +54 and from-18 to-54 before and after the same hue H in the color wheel belong to similar colors and can be matched with each other. In the similar color of the sample, the processing module can find out the color with the same temperature as the color of the sample, namely find out the collocation color which is more harmonious and more in line with the expectation of a client. Meanwhile, the hue H can be matched within plus or minus 18, and the color harmony principle is also met.

In addition, the contrast color means that the colors within plus and minus 18 degrees of two opposite colors (i.e. two colors with a 180 degree difference) in the color wheel can be matched with each other.

Further, in the present embodiment, the temperature T refers to the combination of the hue H and the color temperature, which is used to provide a more one-item reference for the user. The selection range of the temperature T is any positive integer, that is, the number of bits of the temperature T is not limited and can correspond to any positive integer. Specifically, in this embodiment, the temperature T corresponds to four one-digit numbers of 1 to 4, and on this basis, the color code forms a ten-digit digital password, that is, the combination of the hue H and the color temperature is divided into four equal parts, which correspond to four numbers of 1, 2, 3, and 4, respectively, so that the processing module 11 can process the color, and under the condition that the temperature T of the color in the sample is determined, the processing module 11 can find the matching color matched with the temperature T of the color in the sample and show the matching color to the user, thereby providing more and more accurate selections for the user.

In other embodiments, the temperature T may also correspond to other numerical values, such as 1-2, 1-8, or 1-10, which is not limited in the present invention and may be set and selected according to actual needs as long as the processing module is ensured to perform effective processing.

Further, in the present embodiment, the basic feeling includes four modes, which are a C mode, an a mode, an R mode, and an E mode, respectively, wherein the feeling represented by the C mode is comfortable and agreeable; the feeling that mode A represents is rights, authoritative; the R mode represents a feeling of nobility, nobility; the sensation represented by the E-mode is vitality, passion.

That is, four feeling mode buttons 103, namely, a mode C, a mode a, R mode and E mode, are provided in the spatial feeling selection area 102, and a user can select a desired spatial feeling by clicking the feeling mode button 103 of the spatial feeling selection area 102, so that the user can use and operate the spatial feeling conveniently, wherein specific feelings corresponding to the four feeling mode buttons 103 are as shown in table 2 below:

further, in the embodiment, the range of lightness L corresponding to the C mode is 56-99, and the range of saturation C is 00-24; the range of lightness L corresponding to the mode A is 00-55, and the range of saturation C is 00-24; the range of lightness L corresponding to the R mode is 00-55, and the range of saturation C is 25-99; the lightness L corresponding to the E mode ranges from 56 to 99, and the saturation C ranges from 25 to 99.

That is, each sense mode corresponds to a range of each color parameter, and the processing module 11 can select a reasonable matching color more suitable for the customer's desire according to the ten-digit password of the color and the harmonious principle of the color in combination with the temperature T and the light reflectivity Lrv of the color, wherein the ranges of the color parameters corresponding to the four sense modes are shown in the following table 3:

when the user selects, different sensory modes can be selected for combination, as shown in table 4 below:

that is, the user can select different combinations of the sensing modes by clicking the four sensing mode buttons 103 in the spatial sensing selection area 102, and the processing module 11 selects a matching color according to the selection of the user and the range of the color parameter corresponding to the sensing mode.

In other embodiments, the base feeling may include more or less patterns, and the various feeling patterns may form other combinations, which is not limited by the present invention as long as the user's desire is satisfied.

Referring to fig. 3, an embodiment of the present invention further provides an intelligent device 1, configured to perform color matching by using the color matching method according to any one of the above embodiments, including a display module 10, a processing module 11, and an input module 12, where the display module 10 is configured to display contents and results of color matching, the processing module 11 is configured to calculate color parameters of colors and select matching colors matched with a sample according to the color parameters of the sample, and the input module 12 is configured to allow a user to input or select colors, and/or a desired spatial sensation is taken as a sample to be matched and designed.

As described above, according to the color matching method provided by the present invention, the temperature and the light reflectivity are used as the color parameters, so that the color of the sample can generate the color code, the accuracy of color matching is improved, and the matched color can better meet the user's expectation. Simultaneously, carry out the collocation selection of color through smart machine, can simulate color collocation teacher's thinking and the selection of the color of collocating of work, need not carry out complicated selection and contrast on colour chip or colour wheel, promoted the efficiency of color collocation.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that the foregoing is a more detailed description of the invention, taken in conjunction with the specific embodiments thereof, and that no limitation of the invention is intended thereby. Various changes in form and detail, including simple deductions or substitutions, may be made by those skilled in the art without departing from the spirit and scope of the invention.

Claims (7)

1. A color matching method is characterized by comprising the following steps:

user input or selection of colors, and/or, desired spatial perception as a sample to be collocated;

calculating color parameters of the sample, and selecting matched colors matched with the sample according to the color parameters so as to meet the color matching feeling expected by a user;

displaying the calculated collocation colors in corresponding areas;

forming a basic feeling according to the collocation of the collocation color and the sample, and providing a color collocation suggestion scheme for a user;

the user can make adjustments to the proposed solution, wherein,

the color parameters include lightness L, saturation C, hue H, temperature T, and light reflectance Lrv.

2. The color matching method of claim 1, wherein each of the color parameters corresponds to a numerical value of a corresponding number of bits, enabling generation of a color code.

3. The color matching method of claim 2, wherein the selection range of the color parameters is: the lightness L selection range is 00-99, the saturation C selection range is 00-99, the hue H selection range is 000-360, the temperature T selection range is any positive integer, and the light reflectivity Lrv selection range is 00-99%.

4. The color matching method of claim 3, wherein the temperature T is a combination of the hue H and the color temperature for providing a user with more than one reference.

5. The color matching method according to claim 3, wherein the basic senses include four modes, i.e., a C mode, an A mode, an R mode, and an E mode, wherein,

the feeling represented by the C mode is comfortable and agreeable;

the feeling that the A mode represents is rights, authority;

the R mode represents a feeling of nobility, nobility;

the sensation represented by the E-mode is vitality, passion.

6. The color matching method of claim 5, wherein the lightness L corresponding to the C mode ranges from 56 to 99, and the saturation C ranges from 00 to 24;

the range of the lightness L corresponding to the A mode is 00-55, and the range of the saturation C is 00-24;

the range of the lightness L corresponding to the R mode is 00-55, and the range of the saturation C is 25-99;

the range of the lightness L corresponding to the E mode is 56-99, and the range of the saturation C is 25-99.

7. The color matching method of claim 1, wherein in the process of selecting the matched color, a combination of one or more of the color parameters is selected as a calculation basis, or a combination of one or more of the color parameters and a color harmony principle is selected as a calculation basis.

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